Krause, F.F. 1 - Geological Society of America · Sedimentologi sts, Special Publication 23, pp. 151-169 17 Lower Silurian 2 West Virginia, USA 38º05' N 37º50' N 82º40' W 82º35

Krause, F.F. 1

PALEOZOIC MUD-MOUND DATABASEMAP # AGE MOUND LOCALITY LATITUDE LONGITUDE FORMATION AUTHOR YEAR TITLE PUBLICATION

1 Lower Cambrian

1 Antarctica, Transantarctic Mountains

68º26'24" S 69º09'36" S

81º51'24" W 81º59'04" W

Shackleton Limstone

Rees, M.; Pratt, B.R. & Rowell, A.J.

1989 Early Cambrian reefs, reef complexes, and

Sedimentology, vol. 36, pp. 341-361

2 Mid-Lower Cambrian

3+ Flinders Range, South Australia

30º21' S 139º22' E Hawker Group James, N. and Gravestock,

1990 Lower Cambrian shelf and shelf margin buildups,


3 Lower Cambrian

9 Virginia, Austinville Region, United Sates

36º51'4" N 80º54'44" W Shady Dolomite Barnaby, R.J. & Read, J.F.

1990 Carbonate ramp to rimmed shelf evolution: Lower to Middle Cambrian

Geological Society of America Bulletin, vol.

4 Middle Cambrian

1 Mackenzie Mountains, Canada

63º31'00" N 125º50'00" W Rockslide Fm. Pratt, B.R 1995 The origin, biota and evoluton of deep-water mud-mounds

Carbonate Mud-Mounds: their origin and evolution, Monty, C.L.V., Bosence, D.W.J., Bridges, P.H. & Pratt, B.R. (Eds.), International Association of Sedimentologists, Special Publication 23, pp. 49-123.

5 Mid-Middle Cambrian

3+ Marjum Pass, Central House Range, Utah

39º15'16" N 113º21'38" W Marjum Formation

Elrick, M. and Snider, A.

2002 Deep-water stratigraphic cyclicity and carbonate mud mound development in the Middle Cambrian Marjum Formation, House Range, Utah, USA


6 Upper-Middle Cambrian

20+ @ Haiduk Peak, 40+ @ Verdant Cirque

Haiduk Peak and Verdant Cirque

51º06'00" N 115º57'00" W Duchesnay Unit (Chancellor Group)

Motz, K.; Johnston, P; Collom, C. and Krause, F.F.

2001 New Burgess shale-like biotas from the upper Middle Cambrian Duchesnay (Chancellor Group) at the Haiduk Peak and Miller Pass, British Columia

Paleontology Division of the Geological Association of Canada, Canadian Paleontology Conference 2001

MHanauer

DR2004031

Krause, F.F. 2

7

Upper Cambrian

1 Western Newfoundland, Canada

49º55'00" N 57º50'00" W Shallow Bay Fm., Cow head Gp.

Pratt, B.R 1995 The origin, biota and eoluton of deep-water mud-mounds

Carbonate Mud-Mounds: their origin and evolution, Monty, C.L.V., Bosence, D.W.J., Bridges, P.H. & Pratt, B.R. (Eds.), International Association of

8

Lower Ordovician

1 Western Newfoundland, Canada

49º55'00" N 57º50'00" W Shallow Bay Fm., Cow head Gp.

Pohler, S.M.L. and James, N.P.

1989 Reconstruction of a Lower/Middle Ordovician

Facies, vol. 21, pp.189-262

9 Lower-Middle Ordovician

3 Virginia Appalachians, USA

37º00' N 80º00' W to 81º40' W

Lincolnshire Limestone

Read, J.F. 1982 Geometry, Facies and development of Middle Ordovician carbonate buildups, Virginia Appalachians

The American Association of Petroleum Geologists Bulletin, vol. 66(2), pp.189-209

10 Middle Ordovician

3 Beatty, Nevada, U.S.A.

36º52'58" N 37º14'46" N 36º53'32" N

116º39'42" W 116º04'20" W 115º47'36" W

Antelope Valley Limestone

Krause, F.F. 2001 Genesis and geometry of the Meiklejohn lime mud-mound, Bare Mountain Quadrangle, Nevada, U.S.A.: Ordovician limestone with submarine frost heave structures - a possible response to gas clathrate hydrate evolution.

Sedimentary Geology, vol. 112, pp. 89-103


5 Nevada, United States

41º12'30" N 115º40'20" W Antelope Valley Limestone

Ross, R.J.Jr. 1977 Ordovician paleogeography of the Western United States

Paleozoic paleogeography of the United States. Pacific Coast Paleogeography Symposium I. Stewart, J.H, Stevens, C.H. & Fritsche, A.E. (Eds.), Pacific Section, SEPM, Los Angeles, pp.19-38.

Krause, F.F. 3


4 western Newfoundland, Canada

48º34'35" N 51º35'00" N

58º53'00" W 55º45'00" W

Table Point Formation

Stenzel, S.R. & James, N.P.

1995 Shallow-water stromatactis mud-mounds on a Middle Ordovician foreland basin platform, western Newfoundland


13 Upper Ordovician

2+ Sweden; Lake Siljan

60º58'00" N 14º31'00" E Boda Limestone

Schmid, D.; Leinfelder, R. and Nose, M.

2001 Growth dynamics and ecology of Upper Jurassic mounds, with comparisons to Mid-Paleozoic mounds

Sedimentary Geology, vol. 145, pp.343-376

14 Upper Ordovician

15+ Spain, Eastern Iberian Chain; Fombuena: Lusema: Alpartir:

41º09' N 41º10' N 41º25' N

01º11' W 01º09' W 01º23' W

Ashgill Cystoid Limestone Fm

Vennin, E.; Alvaro, J. and Villas E.

1998 High-Latitude pelmatozoan-bryozoan mud-mounds from the late Ordovician northern Gondwana platform

Geological Journal, vol. 33, pp. 121-140

15 Lower Silurian 53 Anticosti Island, Canada

49º06'00" N 61º44'00" W East Point Member, Jupiter Fm.




Krause, F.F. 4

16 Lower Silurian 1 Ellesmere Island, Canadian Arctic Islands, Canada

80º00' N / 76º15' N

82º35' W / 90º20' W

Cape Philips Fm; Allen Bay Fm

De Freitas, T.A.; Dixon, O.A. & Mayr, U. / de Freitas, T.A. & Dixon, O.A.

1993 / 1995 Silurian pinnacle reefs of the Canadian Arctic / Silurian microbial buildups of the Canadian Arctic

Palaios, vol. 8,pp. 172-182. / Carbonate Mud-Mounds: their origin and evolution, Monty, C.L.V., Bosence, D.W.J., Bridges, P.H. & Pratt, B.R. (Eds.), International Association of Sedimentologists, Special Publication 23, pp. 151-169

17 Lower Silurian 2 West Virginia, USA

38º05' N 37º50' N

82º40' W 82º35' W

Lockport Dolomite

Smosna, R. and Warshauer, S.M.

1983 Environment analysis of a Silurian patch reef, Lockport Dolomite of West Virginia

Carbonate buildups: A core workshop, P.M. Harris (ed.), SEPM Core Workshop No. 4, Dallas

18 Lower Silurian 53 Northern Greenland

80º25' N to 82º30' N

65º00' W to 20º00' W

Franklinian reef belt

Sonderholm, M. and Harland, T.L.

1988 Franklinian reef belt, Silurian, North Greenland

Reefs, Canada and Adjacent Area, HHJ Geldsetzer, NP James and GE Tebbutt (Eds.), CSPG Memoir 13, pp. 356-366

19 Upper Silurian 30+ Michigan Group 1 From: . To: Michigan Group 2 From: . To: Michigan Group 3 From: .

44º00' N 45º30' N 42º30' N 43º00' N 42º10' N 42º30' N

85º00' W 86º16' W 83º00' W 82º20' W 84º25' W 84º35' W

Michigan Basin Bay, T.A. 1983 The Silurian of the northern Michigan Basin

Carbonate buildups: A core workshop, P.M. Harris (ed.), SEPM Core Workshop No. 4, Dallas

Krause, F.F. 5

20 Upper Silurian 3 Gaspe Peninsula, Canada

48º30' N 48º30' N 48º30' N

64º30' W 64º50' W 65º10' W

West Point Fm. Bourque, P.-A. and Gignac, H.

1983 Sponge-constructed stromatactis mud mounds, Silurian of Gaspe, Quebec

Journal of Sedimentary Petrology, vol. 53(2), pp. 521-532

21 Upper Silurian 1 Northeastern Illinois, USA

41º34' N 87º37' W Kankakee Fm. McGovney, J.E.

1988 Thornton reef, Silurian, Northeastern Illinois


22 Upper Silurian 3 Port-Daniel, Gaspe Peninsula, Canada

48º11' N 64º59' W West Point Fm. Bourque, P.-A. and Amyot, G.

1988 Stromatoporoid-coral reefs of the Upper West Point Reef Complex, Late Silurian, Gaspe peninsula, Quebec


23 Upper Silurian 5 Indiana; Hanging Rock: Mattock: East Lagro: Bluffton: Delphi:

40º50' N 40º48' N 40º50' N 40º44' N 40º35' N

85º42' W 85º46' W 85º38' W 85º10' W 86º40' W

Mississinewa Shale, Liston Creek Limestone, Huntington Dolomite

Textoris, D. and Carozzi, A.

1964 Petrography and evolution of Niagran (Silurian) reefs, Indiana

Bulletin of the American Association of Petroleum Geologists, vol. 48(4), pp. 397-426


49º00' N 65º30' W to 65º35' W

West Point Fm. Bourque, P.-A.

2001 Sea level, synsedimentary tectonics, and reefs: implications for hydrocarbon exploration in the Silurian-lowermost Devonian Gaspe Belt, Quebec Appalachians

Bulletin of Canadian Petroleum Geology, vol. 49(2), pp. 217-237

Krause, F.F. 6

25 Upper Silurian 7 Ellesmere Island, Canadian Arctic Islands, Canada

77º40'00" N / 76º15' N

85º35'00" W / 90º20' W

Cape Philips Fm; Douro Fm

de Freitas, T.A.; Dixon, O.A. & Mayr, U. / de Freitas, T.A. & Dixon, O.A.

1993 / 1995 Silurian pinnacle reefs of the Canadian Arctic / Silurian microbial buildups of the Canadian Arctic

Palaios, 8, 172-182. / Carbonate Mud-Mounds: their origin and evolution, Monty, C.L.V., Bosence, D.W.J., Bridges, P.H. & Pratt, B.R. (Eds.), International Association of Sedimentologists, Special Publication 23, pp. 151-169

26 Upper Silurian 1 North-Central Indiana, USA

40º40' N 85º40' W Louisville FM Lehman, P.J. and Simo, A.

1988 Depositional facies and diagenesis of the Pipe Creek Jr. reef, Silurian, Great Lakes Region, Indiana



47º30' N to 49º00' N

64º20' W to 68º00' W

Sayabec/La Vielle Fms. West Point Fm.

Bourque, P.-A.; Amyot, G.; Desrochers, A.; Gignac, H.; Gosselin, C.; Lachambre, G. and L lib t J

1986 Silurian and Lower Devonian reef and carbonate complexes of the Gaspe Basin, Quebec-A summary

Bulletin of Canadian Petroleum Geology, vol. 34(4), pp. 452-489

28 Lower Devonian

46 Morocco; Hamar Laghdad

31º22'30" N 04º9'30" W Kess-Kess Brachert, T. C.; Buggisch, W.; Flugel, E.; Hussner, H. M.; Joachimski, M. M.; Tourneur, F.

1992 Controls of mud mound formation: the Early Devonian Kess-Kess carbonates of the Hamar Laghdad, Antiatlas, Morocco

Geologische Rundschau, vol. 81/1, pp. 15-44

29 Lower Devonian

48 West-central Tennessee, USA

35º35' N 87º55' W Rockhouse Limestone Member, Ross Formation

Gibson, M.A.; Clement, C.R. and Broadhead, T.W.

1988 Bryozoan-dominated carbonate mudmounds in a cratonic setting from the basal

Devonian of the World, Volume 2, McMillan, N.J.,Embry, A.F. and Glass,

Krause, F.F. 7

30 Lower Devonian

2 France, Mont Peyroux: Caunes-Minervois:

43º29' N 43º19' N

03º05' E 02º32' E

N/A Flajs, G.; Hussner, H. and Vigener, M.

1995 Lower Devonian Stromatactis-mud mounds (Montagne Noires, France)

Facies, vol. 32, pp. 57-62

31 LowerDevonian

2 Australia, Eastern Victoria

37º31' S 148º11' E Rocky Camp Limestone

Wallace, M.W.

1987 The role of internal erosion and sedimentation in the formation of stromatactis mudstones and associated lithologies

Journal of Sedimentary Petrology, vol. 57, no. 4, pp. 695-700

32 Middle Devonian

2 New York, Borodino Mounds

42º51'32" N 76º20'18" W Tully Limestone Heckel, P. 1972 Possible inorganic origin for stromatactis in calcilutite mounds in the Tlly Limestone, Devonian of New York

Journal of Sedimentary Petrology, vol. 42(1), pp. 7-18

33 Middle Devonian

2 Eifel Hills, Germany

50º56' N 6º56' E Hillesheim Syncline




34 Middle Devonia 6 Morocco; Aferdou el Mrakib: Guelb el Maharch: Jebel el Oftal: Ras el Kebbar:

30º47' N 30º30' N 31º25' N 31º00 N

04º35' W 00º00' W 04º30' W 00º00' W

N/A Wendt, J. 1993 Steep-sided carbonate mud mounds in the Middle Devonian of the eastern Anti-Atlas, Morocco

Geological Magazine, vol. 130(1), pp. 69-83

35 Middle Devonia 208 Algerian Sahara; Gouriet es Soud: Azzel Matti: Oued Ouzdaf: Bahar el Hammar: Gouiret Bou el Mout: Djebel Tamamate: Gouiret ed Diab: Djebel Azaz:

26º10' N 25º35' N 26º33' N 26º17' N 30º37' N 26º30' N 27º49' N 27º06' N

01º15' E 00º57' E 01º06' E 01º48' E 01º55' E 00º49' E 03º04' E 03º29' E

Ahnet Basin Wendt, J.; Belka, Z.; Kaufmann, B.; Kostrewa, R. and Hayer, J.

1997 The world's most spectacular carbonate mud mounds (Middle Devonian, Algerian Sahara)

Journal of Sedimentary Reasearch, vol. 67(3), pp. 424-436

Krause, F.F. 8

36 Middle Devonian

1 Morocco, Hamar Laghdad

31º23' N 04º04' W N/A Peckmann, J.; Walliser, O.H.; Riegel, W. and Reitner, J.

1999 Signatures of hydrocarbon venting in a Middle Devonian carbonate mound (Hollard Mound) at the Hamar Laghdad (Antiatlas, Morocco)

Facies, vol. 40, pp. 281-296

37 Middle-Upper Devonian

2 Harz Mountains, Germany Iberg Reef: Elbingerode complex:

50º45' N 51º20' N

10º00' E 10º50' E

Elbingerode Complex

Weller, H. 1995 The Devonian mud mound of Rubeland in the Harz Mountains/Germany

Facies, vol. 32, part VIII, pp. 43-49

38 Upper Devonian7+ (Cook, 2003, Pers. Comm.)

Bolshoi Karatau Moutains, Kazakhstan

43º38' N 68º15' E N/A Zempolich, W.G.; Cook, H.E.; Zhemchuzhnikov, V.G.; Zhaimina, V.Y.; Zorin, A.Y.; Buvtyshkin, V.M.; Kotova, E.A.; Golub, L.Y.; Giovanelli, A.; Viaggi, M.; Lehman, P.J.; Fretwell, N.;

2002 Biotic and abiotic inflence on the stratigraphic architecture and diagenesis of middle to upper paleozoic carbonates of the Bolshoi Karatau mountains, Kazakhstan and the southern Urals, Russia: Implications for the distribution of early marine cements

Paleozoic Carbonates of the Commonwealth of Independent States (CIS): Subsurface Reservoirs and Outcrop Analogs, Zempolich, W.G. and Cook, H.E. (Eds.), SEPM Special

39 Upper Devonian

2 Western Australia; Canning Basin

18º10' S 126º03' E Virgin Hills Fm Webb, G. 2001 Fammenian mud-mounds in the proximal fore-reef slope, Canning Basin, Western Australia


Krause, F.F. 9

40 Upper Devonian

109 Belgium; Beauchateau: Les Bulants: Tapoumont: Tienne a l'Gatte: Les Croisette: Les Maquettes: Les Wayons: Roghefontain: Hautmont: Petit-Mont: Fort-Conde: St.-Remy: Tiers-Cocrai:

50º09'36" N 50º10' N 50º09'48" N 50º10'54" N 50º11'42" N 50º11'09" N 50º10'42" N 50º11' N 50º09'59" N 50º10' N 50º08'24" N 50º11'18" N 50º12' N

04º29' E 04º30'15" E 04º30'07" E 04º33'30" E 04º34'18" E 04º35'12" E 04º36'12" E 04º38'24" E 04º43'12" E 04º43'36" E 04º48'12" E 05º13'48" E 05º14'42" E

Frasnes Group Boulvain, F. 2001 Facies architecture and diagenesis of Belgian Late Frasnian carbonate mounds


41 Upper Devonian

48 South-Central Alberta

53º13' N 114º59' W Nisku Fm. Watts, N.R. 1987 Carbonate sedimentology and depositional history of the Nisku Formation (within the Western

Devonian Lithofacies and Reservoir Styles in Alberta, Krause, F.F.

42 Mississippian (Lower Carboniferous)

7 North-central Tennessee

36º20' N 84º45' W Fort Payne Fm. Macquown, W.C. and Perkins, J.H.

1982 Stratigraphy and petrology of petroleum-producing Waulsortian-type carbonate mounds in Fort Payne Formation (Lower Mississippian) of North-Central Tennessee

The American Association of Petroleum Geologists Bulletin, vol. 66(8), pp. 1055-1075


6 Williston Basin, North Dakota

46º25' N 102º20' W Lodgepole Fm. Montgomery, S.L.

1996 Mississippian Lodgepole play, Williston Basin: A review

AAPG Bulletin, vol. 80, no. 6, pp.795-810


3 Waulsort, Belgium

50º15' N 4º50' E Dinant Synclinorium

Dehantschutter, J.A.E. and Lees, A.

1996 Waulsortian buildups of Waulsort, Belgium

Geological Journal, vol. 31, pp. 123-142


55+ Sacramento Mountains, New Mexico, USA

33º07' N 105º45' W Lake Valley Fm.

Jeffery, D.L. and Stanton Jr., R.J.

1996 Growth history of Lower Mississippian Waulsortian mounds: Distribution, stratal patterns and geometries, New Mexico

Facies, vol. 35, pp. 29-58

Krause, F.F. 10


2+ SEAL Area, Peace River

56º04'48" N 115º51'54" W Pekisko Fm. Davies, G.R.; Edwards, D.E. and Flach, P.

1988 Lower Carboniferous (Mississippian) waulsortian reefs in the Seal area of North-Central Alberta



3+ Bridger Range, Montana, USA

45º51'36" N 110º48'36" W Lodgepole Fm. Stone, R.A. 1972 Waulsortian-type bioherms (reefs) of Mississippian age, central Ridger Range, Montana

Montana Geological Society, 21st annual field conference, pp. 37-55


3 Montana; Swimming Woman Canyon: Little Belt Mountins From: . To:

46º43'48" N 46º27' N 47º13'12" N

109º15' W 109º51' W 111º00' W

Lodgepole Fm. Smith, D.L. 1977 Transition from deep- to shallow-water carbonates, Paine Member, Lodgepole Formation, Central Montana

Deep-Water Carbonate Environments, H.E. Cook andP. Enos (Eds.), SEPM Special Publication No. 25, pp. 187-201


1 Central Afghanistan

35º N 67º E N/A Webb, G.E. 1994 Non-Waulsortian Mississippian bioherms: A comparative analysis

Pangea: Global Environments and Resources, Embry, A.F., Beauchamp, B. and Glass, D.J. (Eds.), CSPG Memoir 17, pp. 701-713


1 Harz Mountains, Germany

50º45' N 10º00' E Iberg Reef Peckmann, J.; Gischler, E.; Oschmann, W. and Reitner, J.

2001 An Early Carboniferous seep community and hydrocarbon-derived carbonates from the Harz Mountains, Germany

Geology, vol. 29, no. 3, pp. 271-274


20 Bechar Basin, Algeria

32º00' 02º00' W Ioucha and Kebir Fms.

Madi, A.; Savard, M.M.; Bourque, P.-A. and Chi, G.

2000 Hydrocarbon potential of the Mississippian carbonate platform, Bechar Basin, Algerian Sahara

AAPG Bulletin, vol. 84, No. 2, pp. 266-287

Krause, F.F. 11


5+ Ireland, Near Sligo:

54º22' N 08º28' W Sligo Syncline Warnke, K. and Meischner, D.

1995 Origin and depositional environment of lower Carboniferous mud mounds of Northwestern Ireland

Mud Mounds: A Polygenetic Spectrum of Fine-Grained Carbonate Buildups, J. Reitner and F. Neuweiler (Eds.), Facies, 32, Part VII, pp. 36-42


14 (Cook, 2003, Pers. Comm.)


43º57' N 43º38' N

67º33' E 68º15' E

N/A Cook, H.E.; Zhemchuzhnikov, V.G.; Zempolich, W.G.; Zhaimina, V.Y.; Zorin, A.Y.; Buvtyshkin, V.M.; Kotova, E.A.; Golub, L.Y.; Giovanelli, A.; Viaggi, M.; Lehman, P.J.; Fretwell, N.;

2002 Devonian and Carboniferous platform facies in the Bolshoi Karatau, Southern Kazakhstan: Outcrop analogs for coeval carbonate oil and gas fields in the north Caspian Basin, Western Kazakhstan



19+ Nova Scotia 45º08' N 63º15' W Windsor Group Boehner, R.C.

1988 Carbonate buildups of Windsor Group Major Cycle 2: Maxner and Miller Limestones, Miller Creek Formation and Mosher Road Member, Elderbank Formation and B2 Limestone, Nova Scotia

Reefs, Canada and adjacent area, H. H. J. Geldsetzer, N. P. James and G.E. Tebbutt (Eds.), Canadian Society of Petroleum Geologists, Memoir 13, pp. 600-608

Krause, F.F. 12

This publication includes Irish and world-wide Waulsortian mud-mound localities and is included as it provided information towards the discretization study of the Midland-Dublin Basin. It is the most important and detailed source on Carboniferous (Waulsortian)

d

Mississippian (Lower Carboniferous)

1000+ Worldwide N/A N/A N/A Lees, A. & Miller, J.

1995 Waulsortian banks Carbonate Mud-Mounds: their origin and evolution, Monty, C.L.V., Bosence, D.W.J., Bridges, P.H. & Pratt, B.R. (Eds.), International Association of Sedimentologists, Special Publication 23, pp. 191-271.


100+ Morocco; eastern Anti-Atlas

31º02' N 03º43' W Zrigat Fm Wendt, J.; Kaufman, B. and Belka, Z.

2001 An exhumed Paleozoic underwater scenery: the Visean mud mounds of the eastern Anti-Atlas (Morocco)



20+ West-Central Ireland

51º40' N to 54º15' N

06º00' W to 10º15' W

N/A Lees, A. 1964 The structure and origin of the Waulsortian (Lower Carboniferous) 'reefs' of west-central Eire

Philosophical Transactions of the Royal Society, Series B, No. 740, vol. 247


19 Central England

52º30' N 01º10' W Eyam and Monsal Dale Limestones

Gutteridge, P. 1995 Late Dinantian (Brigantian) carbonate mud-mounds of the Derbyshire carbonate platform


Krause, F.F. 13


6 USA; Missouri... . . . Oklahoma: Kentucky:

36º33'26" N 36º33'20" N 38º50'26" N 39º04'26" N 36º18'47" N 36º42'37" N

94º28'47" W 94º20'08" W 92º24'09" W 92º17'00" W 95º00' 03" W 85º21'58" W

Compton Fm. Compton Fm. Chouteau Fm. Burlington Fm. St. Joe Fm. Ft. Payne Fm.

Brezinski, D.K.

2002 Recovery from crisis during crisis: earliest Carboniferous buildups of Missouri and Arkansas

GSA Annual Meeting and Exposition, Abstracts with Programs, Denver, Co. Session 24, p. 67


3 Williston Basin, Southeastern Saskatchewan, Canada

N/A N/A Souris Valley Beds (Logdepole Fm. Equiv.), Madison Gp.

Sereda, R.D. & Kent, D.M.

1987 Waulsortian-type mounds in the Mississippian of the Williston Basin: New interpretation from old cores.

Fifth International Williston BasinSymposium, Carlson, C.G. & Christopher, J.E. (Eds.), SaskatchewanGeological Society,Special Publication No.9, pp. 98-106.


12 Central Missouri, USA

38º40' N to 39º15' N

92º05' W to 92º30' W

Burlington Limestone

King Jr., D.T. 1986 Waulsortian -type buildups and resedimented (Carbonate-turbidite) facies, Early Mississippian Burlington Shelf, Central Missouri

Journal of Sedimentary Petrology, vol. 56, no.4, pp. 471-479

61 Pennsylvanian (Upper Carboniferous)

100+ (Cook, 2003, Pers. Comm.)


43º57' N 67º50' E N/A Cook, H.E.; Zhemchuzhnikov, V.G.; Zempolich, W.G.; Zhaimina, V.Y.; Zorin, A.Y.; Buvtyshkin, V.M.; Kotova, E.A.; Golub, L.Y.; Giovanelli, A.; Viaggi, M.; Lehman, P.J.; Fretwell, N.;

2002 Devonian and Carboniferous platform facies in the Bolshoi Karatau, Southern Kazakhstan: Outcrop analogs for coeval carbonate oil and gas fields in the north Caspian Basin, Western Kazakhstan


Krause, F.F. 14

62 Pennsylvanian (Upper Carboniferous)

3 Axel Heiberg Island: West Hare Fjord: East Hare Fjord:

80º27.5' N 80º48' N 80º55' N

94º30' W 84º50' W 83º50' W

Otto Fiord and Hare Fiord Fms.

Davies, G.R.; Nassichuk, W.W. and Beauchamp B.

1988 Upper Carboniferous "Waulsortian" reefs, Canadian Arctic archipelago


63 Lower Permian 26 Greely Fiord, Ellesmere Island, Canada

80º30'00" N 81º40'00" W Mount Bayley Fm.

Beauchamp, B. and Olchowy, B.

In Press Early Permian buildups (Tolkien Reefs) associated with subaqueous evaporites, Canadian Arctic: A record of syn- to post-tectonic reciprocal uplift and subsidence

SEPM Special Publication on Permo-Carboniferous Platforms and Reefs

64 Lower Permian 1 southwestern Ellesmere Island

78º22' N 85º55' W Nansen Fm. Beauchamp, B.

1988 Lower Permian (Sakmarian) Tubiphytes -Bryozoan buildup, Southwesten Ellesmere Island, Canadian Arctic archipelago


Krause, F.F. 15

65 Lower Permian 2 Sterlitamak, Southern Urals, Russia

54º00' N 56º00' E Tratau and Shaktau reefs

Vennin, E.; Boisseau, T.; Proust, J.-N. and Chuvashov, B.I.

2002 Influence of eustasy and tectonism on reef architecture in early Permian reef complexes, Southern Urals, Russia

Paleozoic Carbonates of the Commonwealth of Independent States (CIS): Subsurface Reservoirs and Outcrop Analogs, Zempolich, W.G. and Cook, H.E. (Eds.), SEPM Special Publication No. 74, pp. 205-218

66 Lower Permian 1+ Norway, Barents Sea, Finmark Platform

72º13'40" N 29º38'42" E Unnamed Blendinger, W.; Bowlin, B.; Zijp, F.R.; Darke, G. and Ekroll, M.

1997 Carbonate buildup flank deposits: an example from the Permian (Barents Sea, northern Norway) challenges classsical facies models

Sedimentary Geology, 112, pp. 89-103

67 Upper-Lower Permian

5 SW Elsmere Island; Lowermost: Tiny Lower Outlier: Middle: Upper: Tiny Upper Outlier:

85º45' N 85º40'30" N 85º45' N 85º42' N 85º46'30" N

78º19'42" W 78º20' W 78º20'36" W 78º22'48" W 78º26'15" W

Unnamed/ Van Hauen Fm.

Beuachamp, B.

1988 Lower Permian (Artinskian) sponge-bryozoan buildups, Southwestern Ellesmere Island, Canadian Arctic archipelago


68 Upper Permian 15+ East Greenland, Jameson Land Basin

71º44'24" N 22º54' W Wegener Halvø Formation

Stemmerik, L. 1991 Reservoir evaluation of Upper Permian buildups in the Jameson Land Basin, East Greenland

Geological Survey of Greenland, Report 149

Krause, F.F. et al./Page 1

REFERENCES CITED PALEOZOIC MUD-MOUND DATABASE1

Barnaby, R.J., and Read, J.F., 1990, Carbonate ramp to rimmed shelf evolution: Lower to

Middle Cambrian continental margin, Virginia Appalachians: Geological Society of America Bulletin, v. 102, p. 391-404.

Bay, T.A., 1983, The Silurian of the northern Michigan Basin, in Harris, P.M., ed.,

Carbonate Buildups: A Core Workshop: Dallas, Society for Sedimentary Research SEPM Core Workshop 4.

Beauchamp, B., 1988, Lower Permian (Sakmarian) Tubiphytes -Bryozoan buildup,

Southwesten Ellesmere Island, Canadian Arctic archipelago, in Geldsetzer, H.H.J., James, N., and Tebbutt, G.E., eds., Reefs, Canada and Adjacent Areas, Canadian Society of Petroleum Geologists Memoir 13, p. 585-589.

—, 1988, Lower Permian (Artinskian) sponge-bryozoan buildups, Southwestern

Ellesmere Island, Canadian Arctic archipelago, in Geldsetzer, H.H.J., James, N.P., and Tebbutt, G.E., eds., Reefs, Canada and Adjacent Areas, Canadian Society of Petroleum Geologists Memoir 13, p. 575-584.

Beauchamp, B., and Olchowy, B., In Press, Early Permian buildups (Tolkien Reefs)

associated with subaqueous evaporites, Canadian Arctic: A record of syn- to post-tectonic reciprocal uplift and subsidence, Permo-Carboniferous Platforms and Reefs, Societyfor Sedimentary Research (SEPM) Special Publication.

Blendinger, W., Bowlin, B., Zijp, F.R., Darke, G., and Ekroll, M., 1997, Carbonate

buildup flank deposits: an example from the Permian (Barents Sea, northern Norway) challenges classsical facies models: Sedimentary Geology, v. 112, p. 89-103.

Boehner, R.C., 1988, Carbonate buildups of Windsor Group Major Cycle 2: Maxner and

Miller Limestones, Miller Creek Formation and Mosher Road Member, Elderbank Formation and B2 Limestone, Nova Scotia, in Geldsetzer, H.H.J., James, N.P., and Tebbutt, G.E., eds., Reefs, Canada and Adjacent Area, Canadian Society of Petroleum Geologists Memoir 13, p. 600-608.

Boulvain, F., 2001, Facies architecture and diagenesis of Belgian Late Frasnian carbonate

mounds: Sedimentary Geology, v. 145, p. 269-294.

1 Authors in this listing have not been cited in the references list appearing in the GEOLOGY article, because of space limitations. The 56 works listed here were used to establish the distribution and abundance of Paleozoic stromatactis and zebra carbonate mud-mounds.


Bourque, P.-A., and Gignac, H., 1983, Sponge-constructed stromatactis mud mounds, Silurian of Gaspe, Quebec: Journal of Sedimentary Petrology, v. 53, p. 521-532.

Bourque, P.-A., Amyot, G., Desrochers, A., Gignac, H., Gosselin, C., Lachambre, G., and

Laliberte, J.-Y., 1986, Silurian and Lower Devonian reef and carbonate complexes of the Gaspe Basin, Quebec-A summary: Bulletin of Canadian Petroleum Geology, v. 34, p. 452-489.

Bourque, P.-A., and Amyot, G., 1988, Stromatoporoid-coral reefs of the Upper West

Point Reef Complex, Late Silurian, Gaspe peninsula, Quebec, in Geldsetzer, H.H.J., James, N.P., and Tebbutt, G.E., eds., Reefs, Canada and Adjacent Areas, Canadian Society of Petroleum Geologists Memoir 13, p. 251-257.

Bourque, P.-A., 2001, Sea level, synsedimentary tectonics, and reefs: implications for

hydrocarbon exploration in the Silurian-lowermost Devonian Gaspe Belt, Quebec Appalachians: Bulletin of Canadian Petroleum Geology, v. 49, p. 217-237.

Brachert, T.C., Buggish, W., Flugel, E., Hussner, H.M., Joachimski, M.M., Tourneur, F.,

and Walliser, O.H., 1992, Controls of mud mound formation: the Early Devonian Kess-Kess carbonates of the Hamar Laghdad, Antiatlas, Morocco: Geologische Rundshau, v. 81, p. 15-44.

Brezinski, D.K., 2002, Recovery from crisis during crisis: earliest Carboniferous buildups

of Missouri and Arkansas, Annual Meeting and Exposition: Denver, Co., Geological Society of America, Abstracts with Programs, Session 24, p. 67.

Cook, H.E., Zhemchuzhnikov, V.G., Zempolich, W.G., Zhaimina, V.Y., Zorin, A.Y.,

Buvtyshkin, V.M., Kotova, E.A., Golub, L.Y., Giovanelli, A., Viaggi, M., Lehman, P.J., Fretwell, N., Alexeiev, D.V., Lapointe, P.A., and Corboy, J.J., 2002, Devonian and Carboniferous platform facies in the Bolshoi Karatau, Southern Kazakhstan: Outcrop analogs for coeval carbonate oil and gas fields in the north Caspian Basin, Western Kazakhstan, in Zempolich, W.G., and Cook, H.E., eds., Paleozoic Carbonates of the Commonwealth of Independent States (CIS): Subsurface Reservoirs and Outcrop Analogs, Society for Sedimentary Research SEPM, Special Publication 74, p. 81-122.

Davies, G.R., Nassichuk, W.W., and Beauchamp, B., 1988, Upper Carboniferous

"Waulsortian" reefs, Canadian Arctic archipelago, in Geldsetzer, H.H.J., James, N.P., and Tebbutt, G.E., eds., Reefs, Canada and Adjacent Area, Canadian Society of Petroleum Geologists, Memoir 13, p. 658-666.

Davies, G.R., Edwards, D.E., and Flach, P., 1988, Lower Carboniferous (Mississippian)

Waulsortian reefs in the Seal area of North-Central Alberta, in Geldsetzer, H.H.J., James, N.P., and Tebbutt, G.E., eds., Reefs, Canada and Adjacent Area, Canadian Society of Petroleum Geologists, Memoir 13, p. 643-648.


de Freitas, T.A., Dixon, O.A., and Mayr, U., 1993, Silurian pinnacle reefs of the Canadian Arctic: Palaois, v. 8, p. 172-182.

Dehantschutter, J.A.E., and Lees, A., 1996, Waulsortian buildups of Waulsort, Belgium:

Geological Journal, v. 31, p. 123-142. Flajs, G., Hussner, H.M., and Vigener, M., 1995, Lower Devonian Stromatactis-mud

mounds (Montagne Noires, France): Facies, v. 32, p. 57-62. Gibson, M.A., Clement, C.R., and Broadhead, T.W., 1988, Bryozoan-dominated

carbonate mudmounds in a cratonic setting from the basal Devonian of the southeastern United States, in McMillan, N.J., Embry, A.F., and Glass, D.J., eds., Devonian of the World, Canadian Society of Petroleum Geologists, Memoir 14 (II), p. 541-552.

Gutteridge, P., 1995, Late Dianantian (Brigantian) carbonate mud-mounds of the

Derbyshire carbonate platform, in Monty, C.L.V., Bosence, D.W.J., Bridges, P.H., and Pratt, B.R., eds., Carbonate Mud-Mounds: their origin and evolution, International Association of Sedimentologists,Special Publication 23, p. 289-307.

Heckel, P., 1972, Possible inorganic origin for stromatactis in calcilutite mounds in the

Tlly Limestone, Devonian of New York: Journal of Sedimentary Petrology, v. 42, p. 7-18.

James, N., and Gravestock, D., 1990, Lower Cambrian shelf and shelf margin buildups,

Flinders Ranges, South Australia: Sedimentology, v. 37, p. 455-480. Jeffery, D.L., and Stanton Jr., R.J., 1996, Growth history of Lower Mississippian

Waulsortian mounds: Distribution, stratal patterns and geometries, New Mexico: Facies, v. 35, p. 29-58.

King Jr., D.T., 1986, Waulsortian -type buildups and resedimented (Carbonate-turbidite)

facies, Early Mississippian Burlington Shelf, Central Missouri: Journal of Sedimentary Petrology, v. 56, p. 471-479.

Lehman, P.J., and Simo, A., 1988, Depositional facies and diagenesis of the Pipe Creek

Jr. reef, Silurian, Great Lakes Region, Indiana, in Geldsetzer, H.H.J., James, N.P., and Tebbutt, G.E., eds., Reefs, Canada and Adjacent Area, Canadian Society of Petroleum Geologists, Memoir 13, p. 319-329.

Macquown, W.C., and Perkins, J.H., 1982, Stratigraphy and petrology of petroleum-

producing Waulsortian-type carbonate mounds in Fort Payne Formation (Lower Mississippian) of North-Central Tennessee: American Association of Petroleum Geologists Bulletin, v. 66, p. 1055-1075.

Madi, A., Savard, M.M., Bourque, P.-A., and Chi, G., 2000, Hydrocarbon potential for


the Mississipian carbonate platform, Bechar Basin, Algerian Sahara: American Association of Petroleum Geologists Bulletin, v. 84, p. 266-287.

McGovney, J.E., 1988, Thornton reef, Silurian, Northeastern Illinois, in Geldsetzer,

H.H.J., James, N.P., and Tebbutt, G.E., eds., Reefs, Canada and Adjacent Area, Canadian Society of Petroleum Geologists, Memoir 13, p. 330-338.

Montgomery, S.L., 1996, Mississippian Lodgepole play, Williston Basin: A review:

American Association of Petroleum Geologists Bulletin, v. 80, p. 795-810. Peckmann, J., Walliser, O.H., Riegel, W., and Reitner, J., 1999, Signatures of

hydrocarbon venting in a Middle Devonian carbonate mound (Hollard Mound) at the Hamar Laghdad (Antiatlas, Morocco): Facies, v. 40, p. 281-296.

Peckmann, J., Gischler, E., Oschmann, W., and Reitner, J., 2001, An Early Carboniferous

seep community and hydrocarbon-derived carbonates from the Harz Mountains, Germany: Geology, v. 29, p. 271-274.

Pohler, S.M.L., and James, N.P., 1989, Reconstruction of a Lower/Middle Ordovician

carbonate shelf margin: Cow Head Group, Western Newfoundland: Facies, v. 21, p. 189-262.

Read, J.F., 1982, Geometry, Facies and development of Middle Ordovician carbonate

buildups, Virginia Appalachians: American Association of Petroleum Geologists Bulletin, v. 66, p. 189-209.

Rees, M., Pratt, B.R., and Rowell, A.J., 1989, Early Cambrian reefs, reef complexes, and

associated lithofacies of the Shackleton Limestone, Transantarctic Mountains: Sedimentology, v. 36, p. 341-361.

Ross, R.J.j., 1977, Ordovician paleogeography of the Western United States, in Stewart,

J.H., Stevens, C.H., and Fritsche, A.E., eds., Paleozoic paleogeography of the United States. Pacific Coast Paleogeography Symposium I: Pacific Section: Los Angeles, Society for Sedimentary Research SEPM, p. 19-38.

Schmid, D., Leinfelder, R., and Nose, M., 2001, Growth dynamics and ecology of Upper

Jurassic mounds, with comparisons to Mid-Paleozoic mounds: Sedimentary Geology, v. 145, p. 343-376.

Sereda, R.D., and Kent, D.M., 1987, Waulsortian-type mounds in the Mississippian of

the Williston Basin: New interpretation from old cores, in Carlson, C.G., and Christopher, J.E., eds., Fifth International Williston Basin Symposium, Volume Special Publication 9, Saskatchewan Geological Society, p. 98-106.

Smith, D.L., 1977, Transition from deep- to shallow-water carbonates, Paine Member,

Lodgepole Formation, Central Montana, in Cook, H.E., and Enos, P., eds., Deep-


Water Carbonate Environments, Society for Sedimentary Research SEPM, Special Publication 25, p. 187-201.

Smosna, R., and Warshauer, S.M., 1983, Environment analysis of a Silurian patch reef,

Lockport Dolomite of West Virginia, in Harris, P.M., ed., Carbonate Buildups: A core workshop: Dallas, Society for Sedimentary Research SEPM, Core Workshop 4, p. unpaginated.

Sonderholm, M., and Harland, T.L., 1988, Franklinian reef belt, Silurian, North

Greenland, in Geldsetzer, H.H.J., James, N.P., and Tebbutt, G.E., eds., Reefs, Canada and Adjacent Area, Volume Memoir 13, CSPG, p. 356-366.

Stemmerik, L., 1991, Reservoir evaluation of Upper Permian buildups in the Jameson

Land Basin, East Greenland: Geological Survey of Greenland, Report 149, p. 23. Stenzel, S.R., and James, N.P., 1995, Shallow-water stromatactis mud-mounds on a

Middle Ordovician foreland basin platform, western Newfoundland, in Monty, C.L.V., Bosence, D.W.J., Bridges, P.H., and Pratt, B.R., eds., Carbonate Mud-Mounds: their origin and evolution, International Association of Sedimentologists, Special Publication 23, p. 127-149.

Stone, R.A., 1972, Waulsortian-type bioherms (reefs) of Mississippian age, central

Ridger Range, Montana, Montana Geological Society, 21st Annual Field Conference, p. 37-55.

Textoris, D., and Carozzi, A., 1964, Petrography and evolution of Niagran (Silurian)

reefs, Indiana: American Association of Petroleum Geologists Bulletin, v. 48, p. 397-426.

Vennin, E., Alvaro, J., and Villas, E., 1998, High-Latitude pelmatozoan-bryozoan mud-

mounds from the late Ordovician northern Gondwana platform: Geological Journal, v. 33, p. 121-140.

Vennin, E., Boisseau, T., Proust, J.-N., and Chuvashov, B.I., 2002, Influence of eustasy

and tectonism on reef architecture in early Permian reef complexes, Southern Urals, Russia, in Zempolich, W.G., and Cook, H.E., eds., Paleozoic Carbonates of the Commonwealth of Independent States (CIS): Subsurface Reservoirs and Outcrop Analogs, Society for Sedimentary Research SEPM, Special Publication 74, p. 205-218.

Wallace, M.W., 1987, The role of internal erosion and sedimentation in the formation of

stromatactis mudstones and associated lithologies: Journal of Sedimentary Petrology, v. 57, p. 695-700.

Warnke, K., and Meischner, D., 1995, Origin and depositional environment of lower Carboniferous mud mounds of Northwestern Ireland: Facies, v. 32, Part VII, p. 36-42.


Webb, G.E., 1994, Non-Waulsortian Mississippian bioherms: A comparative analysis, in

Embry, A.F., Beauchamp, B., and Glass, D.J., eds., Pangea: Global Environments and Resources, Canadian Society of Petroleum Geologists, Memoir 17 (III), p. 701-713.

Webb, G., 2001, Fammenian mud-mounds in the proximal fore-reef slope, Canning

Basin, Western Australia: Sedimentary Geology, v. 145, p. 295-315. Weller, H., 1995, The Devonian mud mound of Rubeland in the Harz

Mountains/Germany: Facies, v. 32 part VIII, p. 43-49. Wendt, J., Belka, Z., and Moussine-Pouchkine, A., 1993, New architectures of deep-

water carbonate buildups: Evolution of mud mounds into mud ridges (Middle Devonian, Algerian Sahara): Geology, v. 21, p. 723-726.

Wendt, J., 1993, Steep-sided carbonate mud mounds in the Middle Devonian of the

eastern Anti-Atlas, Morocco: Geological Magazine, v. 130, p. 69-83. Zempolich, W.G., Cook, H.E., Zhemchuzhnikov, V.G., Zhaimina, V.Y., Zorin, A.Y.,

Buvtyshkin, V.M., Kotova, E.A., Golub, L.Y., Giovanelli, A., Viaggi, M., Lehman, P.J., Fretwell, N., Alexeiev, D.V., and Lapointe, P.A., 2002, Biotic and abiotic inflence on the stratigraphic architecture and diagenesis of middle to upper paleozoic carbonates of the Bolshoi Karatau mountains, Kazakhstan and the southern Urals, Russia: Implications for the distribution of early marine cements and reservoir quality in subsurface reservoirs, in Zempolich, W.G., and Cook, H.E., eds., Paleozoic Carbonates of the Commonwealth of Independent States (CIS): Subsurface Reservoirs and Outcrop Analogs, Society for Sedimentary Research SEPM, Special Publication 74, p. 123-180.

Documents

Krause, F.F. 1 - Geological Society of America · Sedimentologi sts, Special Publication 23, pp. 151-169 17 Lower Silurian 2 West Virginia, USA 38º05' N 37º50' N 82º40' W 82º35